(New page: Well from observation we know <math>E[z] = E[w] 0 </math> due to them being periodic. We also know that <math>E[x^2]=\sigma_x</math> and <math>E[Y^2] =\sigma_y</math>. So then... <math...)
 
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Well from observation we know <math>E[z] = E[w] 0 </math> due to them being periodic.
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Well from observation we know <math>E[z] = E[w] = 0 </math> due to them being periodic.
  
  

Revision as of 08:13, 9 December 2008

Well from observation we know $ E[z] = E[w] = 0 $ due to them being periodic.


We also know that $ E[x^2]=\sigma_x $ and $ E[Y^2] =\sigma_y $.


So then... $ Var[z] = E[z^2] - (E[z])^2 $ and since $ E[z]=0 $ $ Var[z] = E[z^2] = (x\cos(\theta)+sin(\theta))^2 $

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Ruth Enoch, PhD Mathematics